Gps directed intrusion system with data acquisition

ABSTRACT

A GPS directed intrusion system with data acquisition is provided. Some methods can include detecting a threat event associated with a monitored facility, collecting data relevant to the threat event, and transmitting the data relevant to the threat event to a mobile device of an authority figure dispatched to the monitored facility. Some methods can also include placing a surveillance device associated with the monitored facility in a tracking mode, tracking motion captured by the surveillance device, and transmitting data representative of the motion to a mobile device of an authority figure dispatched to the monitored facility.

FIELD

The present invention relates generally to intrusion systems. Moreparticularly, the present invention relates to a GPS directed intrusionsystem with data acquisition.

BACKGROUND

Access control and intrusion systems are known in the art. For example,known access control and intrusion systems can provide authorizedpersonnel with access into and out of a monitored building. At the sametime, known access control and intrusion systems can monitor thebuilding for events that indicate a possible threat event. For example,one type of a threat event includes a break-in, such as when aperpetrator illegally gains access to a monitored building. When abreak-in occurs, the perpetrator often performs some unauthorizedaction, such as a theft or causing bodily harm to authorized personnelthat are legally inside of the monitored building.

When a possible threat event is detected, known access control andintrusion systems can respond to the threat event by generating an alarmand notifying a system operator, who can determine if the threat isreal. The system operator can also notify the proper authorities, forexample, the police, to have an authority figure dispatched to themonitored building for assistance or to perform a further investigationregarding the threat event.

In many instances, system operators are not located on the site of amonitored building. For example, after normal business hours, a companybuilding may be empty. Accordingly, no one will be on site to assist theauthorities or to provide the authorities with any additionalinformation that they may need when the authorities arrive at the site.

For example, when a dispatched authority figure arrives on the site of amonitored building, the authority figure will have little or noinformation to assist with his investigation of a detected threat event.The authority figure will likely not be familiar with the monitoredbuilding or the location to which he was dispatched. Furthermore, theauthority figure will likely not know the layout of the monitoredbuilding or where to find a sensor that detected the threat event. Anyor all of this lack of knowledge can place the authority figure inharm's way.

Some known access control and intrusion systems include video cameras,but often these cameras are statically mounted to a wall or ceiling ofthe monitored building and thus, only provide a single camera angle.Accordingly, video cameras in known access control and intrusion systemsmay not be able to capture enough data to determine the nature of adetected threat event or to identify a perpetrator.

In view of the above, there is a continuing, ongoing need for improvedaccess control and intrusion systems.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a floor plan of an intrusion system in accordance withdisclosed embodiments installed in a monitored building;

FIG. 2 is a flow diagram of a method in accordance with disclosedembodiments;

FIG. 3 is a block diagram of a system for executing the method of FIG. 1and others in accordance with disclosed embodiments; and

FIG. 4 is a block diagram of a mobile device for receiving datatransmitted by the method of FIG. 1 and others in accordance withdisclosed embodiments.

DETAILED DESCRIPTION

While this invention is susceptible of an embodiment in many differentforms, there are shown in the drawings and will be described herein indetail specific embodiments thereof with the understanding that thepresent disclosure is to be considered as an exemplification of theprinciples of the invention. It is not intended to limit the inventionto the specific illustrated embodiments.

Embodiments disclosed herein include a GPS directed intrusion systemwith data acquisition. For example, systems and methods disclosed hereincan collect relevant data and transmit collected data to authorities toaid the authorities in identifying the nature of a detected threat eventand in identifying and apprehending a perpetrator.

In some embodiments, the data transmitted to the authorities can aid theauthorities in arriving at the exact location and/or sensor thatdetected the threat event. In some embodiments, the data transmitted tothe authorities can aid the authorities in tracking a perpetrator, forexample, if the perpetrator is moving within the monitored building. Forexample, the data transmitted to the authorities can include and/or aidthe authorities in determining a likely route that the perpetrator willtraverse so that the authorities can be dispatched to a point where theperpetrator is likely to exit the monitored building.

According to disclosed embodiments, systems and methods disclosed hereincan detect a potential threat event to a monitored building and candetermine whether authorities need to be dispatched to the monitoredbuilding and/or the location of the sensor that detected the threat.Systems and methods disclosed herein can also transmit a notification tothe appropriate authorities, collect data relevant to the detectedthreat event, and transmit collected data to the authorities, forexample, to a mobile device while the authorities are in route to themonitored building. The data transmitted to the authorities can preparethe authorities for the detected threat event so that the authoritiesknow what to expect upon arrival at the monitored building.

For example, after a threat event is detected, systems and methodsdisclosed herein can automatically collect event data and transmit thecollected data and related GPS location data to the proper authorities,for example, when the authorities are dispatched to the monitoredbuilding. In some embodiments, systems and methods disclosed herein canalso transmit the GPS location data to a GPS navigation system for usein routing the dispatched authorities to the site of the detected threatevent.

In some embodiments disclosed herein, an authority figure can employ amobile device, for example, a cellular phone, tablet computer, or apersonal digital assistant, to securely interface with systems andmethods disclosed herein. For example, the mobile device can includecontrol circuitry and executable control software stored on a transitoryor non-transitory computer readable medium for securely receiving dataand displaying the received data on the mobile device. In someembodiments, the mobile device can temporarily access the systems andmethods disclosed herein to enable an authority figure using the deviceto access and view additional data that cannot be viewed on the device,for example, if the amount of data is too large or when live eventtracking data is needed.

After an authority figure has been dispatched, some systems and methodsdisclosed herein can transmit a system data key to the authorityfigure's mobile device. For example, the system data key can pre-enablethe mobile device to receive and review system data. In someembodiments, the system data key can be temporary, that is, the data keycan expire after a predetermined period of time so that the mobiledevice can only receive and review system data during the predeterminedperiod of time. In this manner, system security can be maintained.

Some embodiments of the mobile device disclosed herein can include a GPSdevice so that the mobile device can determine its GPS coordinatesrelative to the monitored building to which the owner of the device hasbeen dispatched. In these embodiments, the mobile device can use its GPScapability to determine when to activate the device's capability toreceive and review system data. For example, the device's capability toreceive and review system data can be enabled only when needed and/oronly when the device is within a predetermined distance from themonitored site to which the owner of the device has been dispatched.

In some embodiments, the data collected and transmitted by systems andmethods disclosed herein can include a plurality of different data typesthat can be reviewed by authorities. For example, in some embodiments,the data collected and transmitted by systems and methods disclosedherein can include the location of an event, for example, a detectedthreat event. Some embodiments of the intrusion system disclosed hereincan include a GPS device, and systems and methods disclosed herein cantag and/or embed surveillance data with GPS data, which can be sent tothe proper authorities. Systems and methods can identify GPS coordinatesof the event, and authorities can use the GPS coordinates to locate theexact location of a detected threat event. For example, when a monitoredsite includes several buildings, knowing the building and/or location inthe building where a threat event is detected can aid authorities inquickly locating and arriving at the location of the threat.

In some embodiments, the data collected and transmitted by systems andmethods disclosed herein can also include video data, for example, videodata streams. The video data can include video data streams from videocameras monitoring the interior of the monitored building and/or theexterior of the monitored building. For example, the video data streamscan originate from video cameras monitoring the location of the detectedthreat. Authorities can use received video data to familiarizethemselves with the monitored area and/or to identify additionalinformation that can be determined from the video data. For example, insome embodiments, the video data can include information that can relateto the nature of the detected threat event, for example, informationabout how a break-in occurred, information to identify a perpetrator,information about victims, and/or information about activities of theperpetrator and/or the direction in which perpetrator is moving.

In some embodiments, the data collected and transmitted by systems andmethods disclosed herein can also include audio data, for example, audiodata streams. The audio data can include audio data streams from camerasand/or microphones monitoring the interior of the monitored buildingand/or the exterior of the monitored building. For example, the audiodata streams can be from cameras and/or microphones monitoring thelocation of the detected threat event. Authorities can use receivedaudio data to determine the number of individuals involved in thedetected threat event, for example, the number of perpetrators and/orthe number of victims or hostages. For example, authorities can reviewrecorded voices and/or conversations between individuals involved in thedetected threat event and/or review recorded background noise todetermine the nature of a threat event as it progresses inside of amonitored building.

In some embodiments, the data collected and transmitted by systems andmethods disclosed herein can also include sensor data, such as motionsensor data, and/or building information, such as a map or floor plan ofa monitored building. For example, authorities can use received sensordata and/or building information to identify a location at whichindividuals may be present in the monitored building and/or to identifya direction in which a perpetrator may be moving within the monitoredbuilding. If systems and methods stop detecting motion at a particularlocation within the building, it may be determined that the perpetratoris at the particular location and/or is hidden near the particularlocation within the building.

According to disclosed embodiments, systems and methods disclosed hereincan be placed in a threat or break-in mode after a potential threatevent is detected. For example, when in a threat mode, systems andmethods disclosed herein can track a perpetrator as he moves throughoutthe monitored building. Some embodiments of the intrusion systemdisclosed herein can include video surveillance cameras and when systemsand methods disclosed herein are in the threat mode, the video camerascan be placed in a self-tracking mode and track threat activity, forexample, movements of the perpetrator. Control circuitry and/orexecutable control software associated with the video cameras canidentify motion in frames of video data streams captured by the camerasand responsive thereto, control the camera to pan, tilt, and zoom. Thatis, motion sensed by the video cameras can control the pan, tilt, andzoom of the cameras to automatically track event motion.

FIG. 1 is a floor plan of an intrusion system 100 in accordance withdisclosed embodiments installed in a monitored building B. As seen inFIG. 1, the system 100 can be installed in a building B with a pluralityof rooms, for example, 110-1, 110-2, 110-3, and each room 110-1, 110-2,110-3 can include at least one entry/exit way, for example a door. Room110-1 can include an entry door 112-1 to the building B and a door 112-2to room 110-2. Similarly, room 110-2 can include the door 112-2 to room110-1 and a door 112-3 to room 110-3. Room 110-3 can include the door112-3 to room 110-2 and an exit door 112-4 from the building B.

In some embodiments, card readers can be associated with each of theentry/exit doors 112-1, 112-4 to the building B to maintain security inthe building B. For example, as seen in FIG. 1, a card reader 114-1 canbe located in the vicinity of the door 112-1, and a card reader 114-2can be located in the vicinity of the door 112-4. Each of the cardreaders 114-1, 114-2 can allow authorized personnel to access and/orleave the building B and prevent unauthorized personnel from accessingthe building B.

In some embodiments, motion detectors and/or surveillance cameras can beassociated with each of the doors 112-1, 112-2, 112-3, 112-4 in thebuilding B to further maintain security in the building B. For example,as seen in FIG. 1, a motion detector 115-1 and a surveillance camera116-1 can monitor a first side of the door 112-1 and capture motion dataand surveillance video/audio data, respectively, in a first region116-a, which can include the door 112-1 and the area in the vicinity ofthe first side of the door 112-1. Similarly, a motion detector 115-2 anda surveillance camera 116-2 can monitor a second side of the door 112-1and capture motion data and surveillance video/audio data, respectively,in a second region 116-b, which can include the door 112-1 and the areain the vicinity of the second side of the door 112-1. A motion detector115-3 and a surveillance camera 116-3 can monitor a first side of thedoor 112-2 and capture motion data and surveillance video/audio data,respectively, in a third region 116-c, which can include the door 112-2and the area in the vicinity of the first side of the door 112-2.Similarly, a motion detector 115-4 and a surveillance camera 116-4 canmonitor a second side of the door 112-2 and capture motion data andsurveillance video/audio data, respectively, in a fourth region 116-d,which can include the door 112-2 and the area in the vicinity of thesecond side of the door 112-2. A motion detector 115-5 and asurveillance camera 116-5 can monitor a first side of the door 112-3 andcapture motion data and surveillance video/audio data, respectively, ina fifth region 116-e, which can include the door 112-3 and the area inthe vicinity of the first side of the door 112-3. Similarly, a motiondetector 115-6 and a surveillance camera 116-6 can monitor a second sideof the door 112-3 and capture motion data and surveillance video/audiodata, respectively, in a sixth region 116-f, which can include the door112-3 and the area in the vicinity of the second side of the door 112-3.A motion detector 115-7 and a surveillance camera 116-7 can monitor afirst side of the door 112-4 and capture motion data and surveillancevideo/audio data, respectively, in a seventh region 116-g, which caninclude the door 112-4 and the area in the vicinity of the first side ofthe door 112-4. Similarly, a motion detector 115-8 and a surveillancecamera 116-8 can monitor a second side of the door 112-4 and capturemotion data and surveillance video/audio data, respectively, in aneighth region 116-h, which can include the door 112-4 and the area inthe vicinity of the second side of the door 112-4.

In some embodiments, each of the motion detectors 115-1, 115-2, 115-3,115-4, 115-5, 115-6, 115-7, 115-8 can include a stationary PIR (passiveinfrared) sensor or device. In some embodiments, each of thesurveillance cameras 116-1, 116-2, 116-3, 116-4, 116-5, 116-6, 116-7,116-8 can include a PTZ (pan-tilt-zoom) camera.

In some embodiments, a GPS device can be associated with each of theentry/exit doors 112-1, 112-4 and/or with each of the card readers114-1, 114-2 to further maintain security in the building B. However, itis to be understood that a GPS device can be installed in the vicinityof any door having a location that would need to be specificallyidentified to authorities. For example, as seen in FIG. 1, a GPS device118-1 can be located in the vicinity of the door 112-1 and/or the reader114-1, and a GPS device 118-2 can be located in the vicinity of the door112-4 and/or the reader 114-2.

In some embodiments, a GPS device can be implemented with controlcircuitry, one or more programmable processors, and executable controlsoftware that can be stored on a transitory or non-transitory computerreadable medium as would be known by those of skill in the art. In someembodiments, a GPS device can be implemented as a device or circuitembedded in a second device, for example, a card reader or sensor, thatis part of the intrusion system 100 and mounted in the vicinity of adoor in the building B. For example, in some embodiments, the GPS device118-1 can be embedded in the card reader 114-1, and the GPS device 118-2can be embedded in the card reader 114-2.

As seen in FIG. 1, an access zone can be associated with each GPS device118-1, 118-2. For example, a first access zone 120-1 can be associatedwith GPS device 118-1, and a second access zone 120-2 can be associatedwith GPS device 118-2. In some embodiments, an access zone 120-1, 120-2can include all devices that are associated with the respective GPSdevice 118-1, 118-2. For example, the first access zone 120-1 caninclude the door 112-2, the reader 114-1, the motion detectors 115-1,115-2, the surveillance cameras 116-1, 116-2, and the GPS device 118-2.Similarly, the second access zone 120-2 can include the door 112-4, thereader 114-2, the motion detectors 115-7, 115-8, the surveillancecameras 116-7, 116-8, and the GPS device 118-2.

FIG. 2 is a flow diagram of a method 200 in accordance with disclosedembodiments. As seen in FIG. 2, the method 200 can include detecting athreat event as in 205. For example, the intrusion system 100 and/ordevices therein can detect an unauthorized perpetrator entering and/orattempting to enter the building B. After the method 200 detects athreat event as in 205, the method 200 can include placing the intrusionsystem 100 and/or devices therein into a tracking mode as in 210.

Once in the tracking mode as in 210, the method 200 can includecollecting data as in 215. For example, the method 200 can determine thespecific location, for example, the door 112-1, at which the perpetratorentered the building B. The method 200 can also use the associated GPSdevice 118-1 to determine the GPS coordinates of the door 112-1 and theassociated access zone 120-1. Once the access zone 120-1 is determined,the method 200 can collect data that is likely most relevant to thedetected threat event. That is, the method 200 can collect data fromeach of the devices in and/or associated with the access zone 120-1. Forexample, the method 200 can collect data from the reader 114-1, from themotion detectors 115-1, 115-2, from the surveillance cameras 116-1,116-2, and from the GPS device 118-1.

After the method 200 collects data as in 215, the method can includetransmitting the collected data as in 220, for example, transmitting thecollected data to dispatched authorities. For example, the method 200can transmit the collected data to an authority figure's mobile device.In some embodiments, the method 200 can transmit building maps and floorplans with the collected data. Using the received data and/or thereceived building maps and/or floor plans, dispatched authorities canreview data that is specific to a location of a threat event.

Once in the tracking mode as in 210, the method 200 can also includetracking the perpetrator as in 225. For example, when the method 200places the intrusion system 100 in a tracking mode as in 210, the method200 can also place one or more of the surveillance cameras 116-1, 116-2,116-3, 116-4, 116-5, 116-6, 116-7, 116-8 into a tracking mode. When thesurveillance cameras 116-1, 116-2, 116-3, 116-4, 116-5, 116-6, 116-7,116-8 are in a tracking mode, the system 100 and/or the surveillancecameras 116-1, 116-2, 116-3, 116-4, 116-5, 116-6, 116-7, 116-8themselves can control the pan, tilt, and zoom of the cameras 116-1,116-2, 116-3, 116-4, 116-5, 116-6, 116-7, 116-8 to track theperpetrator.

For example, when the system 100 and/or a surveillance camera 116-1,116-2, 116-3, 116-4, 116-5, 116-6, 116-7, 116-8 detects video motionwithin a frame of a collected video data stream, the system 100 and/orsurveillance camera 116-1, 116-2, 116-3, 116-4, 116-5, 116-6, 116-7,116-8 can determine in which direction the source of the video motion,for example, the captured perpetrator, is moving and can cause thesurveillance cameras 116-1, 116-2, 116-3, 116-4, 116-5, 116-6, 116-7,116-8 to pan, tilt, and/or zoom as needed to track the video motion.

Based on the detected video motion and the determined direction of thevideo motion, the system 100 and/or the surveillance cameras 116-1,116-2, 116-3, 116-4, 116-5, 116-6, 116-7, 116-8 can determine a probablepath or route 122 along which the perpetrator is travelling within thebuilding B. Then, surveillance cameras 116-1, 116-2, 116-3, 116-4,116-5, 116-6, 116-7, 116-8 not yet sensing video motion of the capturedperpetrator can be moved to a position in which the surveillancedetector 116-1, 116-2, 116-3, 116-4, 116-5, 116-6, 116-7, 116-8 willlikely sense video motion of the captured perpetrator when theperpetrator moves within range and/or within a detection region of thesurveillance camera 116-1, 116-2, 116-3, 116-4, 116-5, 116-6, 116-7,116-8.

For example, when the surveillance camera 116-1 captures a perpetratorwithin video of the first region 116-a, the system 100 and/or thesurveillance camera 116-1 can determine that the perpetrator will likelytravel along the route 122. Then, the system 100 and/or the surveillancedetector 116-2 can move the surveillance detector 116-2 to a position inwhich the surveillance detector 116-2 will likely capture video of theperpetrator when he moves into the second region 116-b. When thesurveillance camera 116-2 captures the perpetrator within video of thesecond region 116-b, the system 100 and/or the surveillance camera 116-2can determine that the perpetrator will likely travel along the route122. Then, the system 100 and/or the surveillance camera 116-3 can movethe surveillance camera 116-3 to a position in which the surveillancecameral 16-3 will likely capture video of the perpetrator when he movesinto the third region 116-c.

When the surveillance camera 116-3 captures the perpetrator within videoof the third region 116-c, the system 100 and/or the surveillance camera116-3 can determine that the perpetrator will likely travel along theroute 122. Then, the system 100 and/or the surveillance camera 116-4 canmove the surveillance camera 116-4 to a position in which thesurveillance camera 116-4 will likely capture video of the perpetratorwhen he moves into the fourth region 116-d. When the surveillance camera116-4 captures the perpetrator within video of the fourth region 116-d,the system 100 and/or the surveillance camera 116-4 can determine thatthe perpetrator will likely travel along the route 122. Then, the systemand/or the surveillance camera 116-5 can move the surveillance camera116-5 to a position in which the surveillance camera 116-5 will likelycapture video of the perpetrator when he moves into the fifth region116-e.

When the surveillance camera 116-5 captures the perpetrator within videoof the fifth region 116-e, the system 100 and/or the surveillance camera116-5 can determine that the perpetrator will likely travel along theroute 122. Then, the system 100 and/or the surveillance camera 116-6 canmove the surveillance camera 116-6 to a position in which thesurveillance camera 116-6 will likely capture video of the perpetratorwhen he moves into the sixth region 116-f. When the surveillance camera116-6 captures the perpetrator within video of the sixth region 116-f,the system 100 and/or the surveillance camera 116-6 can determine thatthe perpetrator will likely travel along the route 122. Then, the systemand/or the surveillance camera 116-7 can move the surveillance camera116-7 to a position in which the surveillance camera 116-7 will likelycapture video of the perpetrator when he moves into the seventh region116-g.

When the surveillance detector 116-7 captures video the perpetratorwithin the seventh region 116-g, the system 100 and/or the surveillancecamera 116-7 can determine that the perpetrator will likely travel alongthe route 122. Then, the system 100 and/or the surveillance camera 116-8can move the surveillance camera 116-8 to a position in which thesurveillance camera 116-8 will likely capture video of the perpetratorwhen he moves into the eighth region 116-h.

As seen in FIG. 2, data collected from the surveillance cameras 116-1,116-2, 116-3, 116-4, 116-5, 116-6, 116-7, 116-8 while tracking theperpetrator as in 225 can also be transmitted as in 220, for example,transmitted to the proper authorities as in 220. Then, the method 200can continue collecting data as in 215 and tracking the perpetrator asin 225.

The method 100 of FIG. 1 and others in accordance with disclosedembodiments can be executed with the system 300 shown in FIG. 3. Forexample, the system 300 can include control circuitry 310, one or moreprogrammable processors 320, and executable control software 330 storedon a transitory or non-transitory computer readable medium, includingbut not limited to, computer memory, RAM, optical storage media,magnetic storage media, flash memory, and the like. In some embodiments,the executable control software 330 can implement the steps of method200 shown in FIG. 2 as well as others disclosed herein.

The data transmitted by the method 100 of FIG. 1 and others inaccordance with disclosed embodiments can be transmitted to and receivedby the mobile device 400 shown in FIG. 4. For example, the mobile device400 can include a transceiver 405, a user interface 410, for example, aviewing screen for displaying received data, control circuitry 420, oneor more programmable processors 430, and executable control software 440stored on a non-transitory computer readable medium, including but notlimited to, computer memory, RAM, optical storage media, magneticstorage media, flash memory, and the like.

In some embodiments, the mobile device 400, via the transceiver 405, canreceive data securely, can display data securely on the user interface410, and/or can securely receive a system data key. In some embodiments,the mobile device 400, via the transceiver 405, can interface with thesystem 300, for example, when the device 400 is within a predetermineddistance from the system 300 and/or from a monitored building B.

Although a few embodiments have been described in detail above, othermodifications are possible. For example, the logic flows described abovedo not require the particular order described, or sequential order, toachieve desirable results. Other steps may be provided, or steps may beeliminated, from the described flows, and other components may be addedto, or removed from, the described systems. Other embodiments may bewithin the scope of the invention.

From the foregoing, it will be observed that numerous variations andmodifications may be effected without departing from the spirit andscope of the invention. It is to be understood that no limitation withrespect to the specific system or method described herein is intended orshould be inferred. It is, of course, intended to cover all suchmodifications as fall within the sprit and scope of the invention.

What is claimed is:
 1. A method comprising: detecting a threat eventassociated with a monitored facility; collecting data relevant to thethreat event; and transmitting the data relevant to the threat event toa mobile device of an authority figure dispatched to the monitoredfacility.
 2. The method of claim 1 wherein collecting data relevant tothe threat event includes identifying a location of the threat event. 3.The method of claim 2 wherein identifying a location of the threat eventincludes identifying GPS coordinates of a sensor that detected thethreat event.
 4. The method of claim 3 further comprising transmittingthe GPS coordinates of the sensor that detected the threat event to aGPS navigation system.
 5. The method of claim 1 further comprisingtransmitting a system data key to the mobile device to enable the mobiledevice to receive the data relevant to the threat event.
 6. The methodof claim 5 further comprising the system data key pre-enabling themobile device to receive and display the data relevant to the threatevent.
 7. The method of claim 5 further comprising the system data keyexpiring after a predetermined period of time.
 8. The method of claim 1wherein collecting data relevant to the threat event includes at leastone of collection motion data from motion detectors associated with thethreat event, collecting video data from surveillance devices associatedwith the threat event, collecting audio data from surveillance devicesassociated with the threat event, and collecting data from at least onesensor associated with the threat event.
 9. The method of claim 1wherein transmitting the data relevant to the threat event includestransmitting a map or a floor plan of the monitored facility to themobile device of the authority figure dispatched to the monitoredfacility.
 10. The method of claim 1 further comprising identifying anaccess zone associated with the threat event, and collecting data fromsystem devices associated with the access zone.
 11. A method comprising:detecting a threat event associated with a monitored facility; placingat least one surveillance device associated with the monitored facilityin a tracking mode; tracking motion captured by the surveillance device;and transmitting data representative of the motion to a mobile device ofan authority figure dispatched to the monitored facility.
 12. The methodof claim 11 wherein tracking motion captured by the surveillance deviceincludes controlling a pan, tilt, and/or zoom of the surveillance deviceto track the motion.
 13. The method of claim 11 wherein tracking motioncaptured by the surveillance device includes determining a projecteddirection of a source of the motion.
 14. The method of claim 13 furthercomprising determining a projected route of the source of the motion.15. The method of claim 14 further comprising using the projected routeto adjust a second surveillance device to sense the source of motionwhen the source of motion enters a motion capturing region of the secondsurveillance device.
 16. A system comprising: a programmable processor;and executable control software stored on a non-transitory computerreadable medium, wherein the programmable processor and the executablecontrol software receive an indication that a threat event associatedwith a monitored facility is detected, wherein the programmableprocessor and the executable control software control collection of datarelevant to the threat event, and wherein the programmable processor andthe executable control software control transmission of the datarelevant to the threat event to a mobile device of an authority figuredispatched to the monitored facility.
 17. The system of claim 16 furthercomprising at least one of a reader, a motion detector, and asurveillance device located in a vicinity of a door of the monitoredfacility, wherein the programmable processor and the executable controlsoftware receive the indication from the reader, the motion detector, orthe surveillance device.
 18. The system of claim 16 further comprisingat least one GPS device located in a vicinity of a door of the monitoredfacility, wherein the programmable processor and the executable controlsoftware receive a location of the threat event from the GPS device. 19.The system of claim 18 wherein an access zone is associated with the GPSdevice, and wherein a plurality of system devices is associated with theaccess zone.
 20. The system of claim 19 wherein the programmableprocessor and the executable control software control collection of datafrom each of the plurality of system devices associated with the accesszone.